mirror of
https://github.com/gperftools/gperftools
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46d3315ad7
This facility allowed us to build tcmalloc without linking in actual -lpthread. Via weak symbols we checked at runtime if pthread functions are available and if not, special single-threaded stubs were used instead. Not always brining in pthread dependency helped performance of some programs or libraries which depended at runtime on whether threads are linked or not. Most notable of those are libstdc++ which uses non-atomic refcounting on single threaded programs. But such optional dependency on pthreads caused complications for nearly no benefit. One trouble was reported in github issue #1110. This days glibc/libstdc++ combo actually depends on sys/single_threaded.h facility. So bringing pthread at runtime is fine. Also modern glibc ships pthread symbols inside libc anyways and libpthread is empty. I also found that for whatever reason on BSDs and osx we already pulled in proper pthreads too. So we loose nothing and we get issue #1110 fixed. And we simplify everything.
626 lines
26 KiB
Plaintext
626 lines
26 KiB
Plaintext
Copyright 1994, 1995, 1996, 1999, 2000, 2001, 2002 Free Software
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Foundation, Inc.
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This file is free documentation; the Free Software Foundation gives
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unlimited permission to copy, distribute and modify it.
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Perftools-Specific Install Notes
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================================
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*** Building from source repository
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As of 2.1 gperftools does not have configure and other autotools
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products checked into it's source repository. This is common practice
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for projects using autotools.
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NOTE: Source releases (.tar.gz that you download from
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code.google.com/p/gperftools) still have all required files just as
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before. Nothing has changed w.r.t. building from .tar.gz releases.
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But, in order to build gperftools checked out from subversion
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repository you need to have autoconf, automake and libtool
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installed. And before running ./configure you have to generate it (and
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a bunch of other files) by running ./autogen.sh script. That script
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will take care of calling correct autotools programs in correct order.
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If you're maintainer then it's business as usual too. Just run make
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dist (or, preferably, make distcheck) and it'll produce .tar.gz or
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.tar.bz2 with all autotools magic already included. So that users can
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build our software without having autotools.
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*** NOTE FOR 64-BIT LINUX SYSTEMS
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The glibc built-in stack-unwinder on 64-bit systems has some problems
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with the perftools libraries. (In particular, the cpu/heap profiler
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may be in the middle of malloc, holding some malloc-related locks when
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they invoke the stack unwinder. The built-in stack unwinder may call
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malloc recursively, which may require the thread to acquire a lock it
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already holds: deadlock.)
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For that reason, if you use a 64-bit system, we strongly recommend you
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install libunwind before trying to configure or install gperftools.
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libunwind can be found at
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http://download.savannah.gnu.org/releases/libunwind/libunwind-0.99-beta.tar.gz
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Even if you already have libunwind installed, you should check the
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version. Versions older than this will not work properly; too-new
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versions introduce new code that does not work well with perftools
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(because libunwind can call malloc, which will lead to deadlock).
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There have been reports of crashes with libunwind 0.99 (see
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http://code.google.com/p/gperftools/issues/detail?id=374).
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Alternately, you can use a more recent libunwind (e.g. 1.0.1) at the
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cost of adding a bit of boilerplate to your code. For details, see
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http://groups.google.com/group/google-perftools/msg/2686d9f24ac4365f
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CAUTION: if you install libunwind from the url above, be aware that
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you may have trouble if you try to statically link your binary with
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perftools: that is, if you link with 'gcc -static -lgcc_eh ...'.
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This is because both libunwind and libgcc implement the same C++
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exception handling APIs, but they implement them differently on
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some platforms. This is not likely to be a problem on ia64, but
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may be on x86-64.
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Also, if you link binaries statically, make sure that you add
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-Wl,--eh-frame-hdr to your linker options. This is required so that
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libunwind can find the information generated by the compiler
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required for stack unwinding.
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Using -static is rare, though, so unless you know this will affect
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you it probably won't.
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If you cannot or do not wish to install libunwind, you can still try
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to use the built-in stack unwinder. The built-in stack unwinder
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requires that your application, the tcmalloc library, and system
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libraries like libc, all be compiled with a frame pointer. This is
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*not* the default for x86-64.
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If you are on x86-64 system, know that you have a set of system
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libraries with frame-pointers enabled, and compile all your
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applications with -fno-omit-frame-pointer, then you can enable the
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built-in perftools stack unwinder by passing the
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--enable-frame-pointers flag to configure.
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Even with the use of libunwind, there are still known problems with
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stack unwinding on 64-bit systems, particularly x86-64. See the
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"64-BIT ISSUES" section in README.
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If you encounter problems, try compiling perftools with './configure
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--enable-frame-pointers'. Note you will need to compile your
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application with frame pointers (via 'gcc -fno-omit-frame-pointer
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...') in this case.
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*** TCMALLOC LARGE PAGES: TRADING TIME FOR SPACE
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You can set a compiler directive that makes tcmalloc faster, at the
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cost of using more space (due to internal fragmentation).
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Internally, tcmalloc divides its memory into "pages." The default
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page size is chosen to minimize memory use by reducing fragmentation.
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The cost is that keeping track of these pages can cost tcmalloc time.
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We've added a new flag to tcmalloc that enables a larger page size.
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In general, this will increase the memory needs of applications using
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tcmalloc. However, in many cases it will speed up the applications
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as well, particularly if they allocate and free a lot of memory. We've
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seen average speedups of 3-5% on Google applications.
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To build libtcmalloc with large pages you need to use the
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--with-tcmalloc-pagesize=ARG configure flag, e.g.:
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./configure <other flags> --with-tcmalloc-pagesize=32
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The ARG argument can be 4, 8, 16, 32, 64, 128 or 256 which sets the
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internal page size to 4K, 8K, 16K, 32K, 64K, 128K and 256K respectively.
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The default is 8K.
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*** SMALL TCMALLOC CACHES: TRADING SPACE FOR TIME
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You can set a compiler directive that makes tcmalloc use less memory
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for overhead, at the cost of some time.
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Internally, tcmalloc keeps information about some of its internal data
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structures in a cache. This speeds memory operations that need to
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access this internal data. We've added a new, experimental flag to
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tcmalloc that reduces the size of this cache, decresaing the memory
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needs of applications using tcmalloc.
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This feature is still very experimental; it's not even a configure
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flag yet. To build libtcmalloc with smaller internal caches, run
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./configure <normal flags> CXXFLAGS=-DTCMALLOC_SMALL_BUT_SLOW
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(or add -DTCMALLOC_SMALL_BUT_SLOW to your existing CXXFLAGS argument).
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*** NOTE FOR ___tls_get_addr ERROR
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When compiling perftools on some old systems, like RedHat 8, you may
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get an error like this:
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___tls_get_addr: symbol not found
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This means that you have a system where some parts are updated enough
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to support Thread Local Storage, but others are not. The perftools
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configure script can't always detect this kind of case, leading to
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that error. To fix it, just comment out the line
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#define HAVE_TLS 1
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in your config.h file before building.
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*** TCMALLOC AND DLOPEN
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To improve performance, we use the "initial exec" model of Thread
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Local Storage in tcmalloc. The price for this is the library will not
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work correctly if it is loaded via dlopen(). This should not be a
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problem, since loading a malloc-replacement library via dlopen is
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asking for trouble in any case: some data will be allocated with one
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malloc, some with another. If, for some reason, you *do* need to use
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dlopen on tcmalloc, the easiest way is to use a version of tcmalloc
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with TLS turned off; see the ___tls_get_addr note above.
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*** COMPILING ON NON-LINUX SYSTEMS
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Perftools has been tested on the following systems:
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FreeBSD 6.0 (x86)
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FreeBSD 8.1 (x86_64)
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Linux CentOS 5.5 (x86_64)
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Linux Debian 4.0 (PPC)
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Linux Debian 5.0 (x86)
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Linux Fedora Core 3 (x86)
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Linux Fedora Core 4 (x86)
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Linux Fedora Core 5 (x86)
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Linux Fedora Core 6 (x86)
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Linux Fedora Core 13 (x86_64)
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Linux Fedora Core 14 (x86_64)
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Linux RedHat 9 (x86)
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Linux Slackware 13 (x86_64)
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Linux Ubuntu 6.06.1 (x86)
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Linux Ubuntu 6.06.1 (x86_64)
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Linux Ubuntu 10.04 (x86)
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Linux Ubuntu 10.10 (x86_64)
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Mac OS X 10.3.9 (Panther) (PowerPC)
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Mac OS X 10.4.8 (Tiger) (PowerPC)
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Mac OS X 10.4.8 (Tiger) (x86)
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Mac OS X 10.5 (Leopard) (x86)
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Mac OS X 10.6 (Snow Leopard) (x86)
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Solaris 10 (x86_64)
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Windows XP, Visual Studio 2003 (VC++ 7.1) (x86)
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Windows XP, Visual Studio 2005 (VC++ 8) (x86)
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Windows XP, Visual Studio 2005 (VC++ 9) (x86)
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Windows XP, Visual Studio 2005 (VC++ 10) (x86)
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Windows XP, MinGW 5.1.3 (x86)
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Windows XP, Cygwin 5.1 (x86)
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It works in its full generality on the Linux systems
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tested (though see 64-bit notes above). Portions of perftools work on
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the other systems. The basic memory-allocation library,
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tcmalloc_minimal, works on all systems. The cpu-profiler also works
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fairly widely. However, the heap-profiler and heap-checker are not
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yet as widely supported. In general, the 'configure' script will
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detect what OS you are building for, and only build the components
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that work on that OS.
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Note that tcmalloc_minimal is perfectly usable as a malloc/new
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replacement, so it is possible to use tcmalloc on all the systems
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above, by linking in libtcmalloc_minimal.
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** FreeBSD:
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The following binaries build and run successfully (creating
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libtcmalloc_minimal.so and libprofile.so in the process):
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% ./configure
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% make tcmalloc_minimal_unittest tcmalloc_minimal_large_unittest \
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addressmap_unittest atomicops_unittest frag_unittest \
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low_level_alloc_unittest markidle_unittest memalign_unittest \
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packed_cache_test stacktrace_unittest system_alloc_unittest \
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thread_dealloc_unittest profiler_unittest.sh
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% ./tcmalloc_minimal_unittest # to run this test
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% [etc] # to run other tests
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Three caveats: first, frag_unittest tries to allocate 400M of memory,
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and if you have less virtual memory on your system, the test may
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fail with a bad_alloc exception.
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Second, profiler_unittest.sh sometimes fails in the "fork" test.
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This is because stray SIGPROF signals from the parent process are
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making their way into the child process. (This may be a kernel
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bug that only exists in older kernels.) The profiling code itself
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is working fine. This only affects programs that call fork(); for
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most programs, the cpu profiler is entirely safe to use.
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Third, perftools depends on /proc to get shared library
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information. If you are running a FreeBSD system without proc,
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perftools will not be able to map addresses to functions. Some
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unittests will fail as a result.
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Finally, the new test introduced in perftools-1.2,
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profile_handler_unittest, fails on FreeBSD. It has something to do
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with how the itimer works. The cpu profiler test passes, so I
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believe the functionality is correct and the issue is with the test
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somehow. If anybody is an expert on itimers and SIGPROF in
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FreeBSD, and would like to debug this, I'd be glad to hear the
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results!
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libtcmalloc.so successfully builds, and the "advanced" tcmalloc
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functionality all works except for the leak-checker, which has
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Linux-specific code:
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% make heap-profiler_unittest.sh \
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tcmalloc_unittest tcmalloc_both_unittest \
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tcmalloc_large_unittest # THESE WORK
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% make -k heap-checker_unittest.sh \
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heap-checker-death_unittest.sh # THESE DO NOT
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Note that unless you specify --enable-heap-checker explicitly,
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'make' will not build the heap-checker unittests on a FreeBSD
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system.
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I have not tested other *BSD systems, but they are probably similar.
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** Mac OS X:
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I've tested OS X 10.5 [Leopard], OS X 10.4 [Tiger] and OS X 10.3
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[Panther] on both intel (x86) and PowerPC systems. For Panther
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systems, perftools does not work at all: it depends on a header
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file, OSAtomic.h, which is new in 10.4. (It's possible to get the
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code working for Panther/i386 without too much work; if you're
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interested in exploring this, drop an e-mail.)
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For the other seven systems, the binaries and libraries that
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successfully build are exactly the same as for FreeBSD. See that
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section for a list of binaries and instructions on building them.
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In addition, it appears OS X regularly fails profiler_unittest.sh
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in the "thread" test (in addition to occassionally failing in the
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"fork" test). It looks like OS X often delivers the profiling
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signal to the main thread, even when it's sleeping, rather than
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spawned threads that are doing actual work. If anyone knows
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details of how OS X handles SIGPROF (via setitimer()) events with
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threads, and has insight into this problem, please send mail to
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google-perftools@googlegroups.com.
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** Solaris 10 x86:
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I've only tested using the GNU C++ compiler, not the Sun C++
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compiler. Using g++ requires setting the PATH appropriately when
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configuring.
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% PATH=${PATH}:/usr/sfw/bin/:/usr/ccs/bin ./configure
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% PATH=${PATH}:/usr/sfw/bin/:/usr/ccs/bin make [...]
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Again, the binaries and libraries that successfully build are
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exactly the same as for FreeBSD. (However, while libprofiler.so can
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be used to generate profiles, pprof is not very successful at
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reading them -- necessary helper programs like nm don't seem
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to be installed by default on Solaris, or perhaps are only
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installed as part of the Sun C++ compiler package.) See that
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section for a list of binaries, and instructions on building them.
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** Windows (MSVC, Cygwin, and MinGW):
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Work on Windows is rather preliminary: only tcmalloc_minimal is
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supported.
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We haven't found a good way to get stack traces in release mode on
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windows (that is, when FPO is enabled), so the heap profiling may
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not be reliable in that case. Also, heap-checking and CPU profiling
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do not yet work at all. But as in other ports, the basic tcmalloc
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library functionality, overriding malloc and new and such (and even
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windows-specific functions like _aligned_malloc!), is working fine,
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at least with VC++ 7.1 (Visual Studio 2003) through VC++ 10.0,
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in both debug and release modes. See README.windows for
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instructions on how to install on Windows using Visual Studio.
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Cygwin can compile some but not all of perftools. Furthermore,
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there is a problem with exception-unwinding in cygwin (it can call
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malloc, which can call the exception-unwinding-setup code, which
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can lead to an infinite loop). I've comitted a workaround to the
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exception unwinding problem, but it only works in debug mode and
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when statically linking in tcmalloc. I hope to have a more proper
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fix in a later release. To configure under cygwin, run
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./configure --disable-shared CXXFLAGS=-g && make
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Most of cygwin will compile (cygwin doesn't allow weak symbols, so
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the heap-checker and a few other pieces of functionality will not
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compile). 'make' will compile those libraries and tests that can
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be compiled. You can run 'make check' to make sure the basic
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functionality is working. I've heard reports that some versions of
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cygwin fail calls to pthread_join() with EINVAL, causing several
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tests to fail. If you have any insight into this, please mail
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google-perftools@googlegroups.com.
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This Windows functionality is also available using MinGW and Msys,
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In this case, you can use the regular './configure && make'
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process. 'make install' should also work. The Makefile will limit
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itself to those libraries and binaries that work on windows.
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** AIX
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I've tested using the IBM XL and IBM Open XL Compilers. The
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minimum requirement for IBM XL is V16 which includes C++11
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support. IBM XL and gcc are not ABI compatible. If you would
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like to use the library with a gcc built executable then the
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library must also be built with gcc. To use the library with
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and IBM XL built binary then it follows that the library must
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also be built with IBM XL.
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Both 32-bit and 64-bit builds have been tested.
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To do a 32-bit IBM XL build:
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% ./configure CC="xlclang" CXX="xlclang++" AR="ar"
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RANLIB="ranlib" NM="nm"
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To do a 64-bit IBM XL build:
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% ./configure CC="xlclang -q64" CXX="xlclang++ -q64"
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AR="ar -X64" RANLIB="ranlib -X64" NM="nm -X64"
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Add your favorite optimization levels via CFLAGS and CXXFLAGS.
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If you link to the shared library but it may not work as you
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expect. Allocations and deallocations that occur from within
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the Standard C and C++ libraries will not be redirected the
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tcmalloc library.
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The recommended method is to use the AIX User-defined malloc
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replacement as documented by IBM. This replaces the default
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AIX memory subsystem with a user defined memory subsystem.
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The AIX user defined memory subsystem specifies that the 32-
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and 64- bit objects must be placed in an archive with the
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32-bit shared object named mem32.o and the 64-bit shared
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object named mem64.o.
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It is recommended to make combined 32_64 bit archive by
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doing a 64-bit build, then copy the shared library to mem64.o
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add mem64.o the archive, then do a 32-bit build
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copy the shared library to mem32.o and add it to the same
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combined archive.
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For eg) perform a 64-bit build then:
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% cp libtcmalloc_minimal.so.4 mem64.o
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% ar -X32_64 -r libtmalloc_minimal.a mem64.o
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Followed by a 32-bit build:
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% cp libtcmalloc_minimal.so.4 mem32.o
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% ar -X32_64 -r libtmalloc_minimal.a mem32.o
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The final archive should contain both mem32.o and mem64.o
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To use the library you are expected have the library location
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in your LIBPATH or LD_LIBRARY_PATH followed by exporting the
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environment variable MALLOCTYPE=user:libtcmalloc_minimal.a to
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enable the new user defined memory subsystem.
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I recommend using:
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% MALLOCTYPE=user:libtcmalloc_minimal.a <user-exectuable>
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to minimize the impact of replacing the memory subsystem. Once
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the subsystem is replaced it is used for all commands issued from
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the terminal.
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Basic Installation
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==================
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These are generic installation instructions.
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The `configure' shell script attempts to guess correct values for
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various system-dependent variables used during compilation. It uses
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those values to create a `Makefile' in each directory of the package.
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It may also create one or more `.h' files containing system-dependent
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definitions. Finally, it creates a shell script `config.status' that
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you can run in the future to recreate the current configuration, and a
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file `config.log' containing compiler output (useful mainly for
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debugging `configure').
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It can also use an optional file (typically called `config.cache'
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and enabled with `--cache-file=config.cache' or simply `-C') that saves
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the results of its tests to speed up reconfiguring. (Caching is
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disabled by default to prevent problems with accidental use of stale
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cache files.)
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If you need to do unusual things to compile the package, please try
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to figure out how `configure' could check whether to do them, and mail
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diffs or instructions to the address given in the `README' so they can
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be considered for the next release. If you are using the cache, and at
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some point `config.cache' contains results you don't want to keep, you
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may remove or edit it.
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The file `configure.ac' (or `configure.in') is used to create
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`configure' by a program called `autoconf'. You only need
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`configure.ac' if you want to change it or regenerate `configure' using
|
|
a newer version of `autoconf'.
|
|
|
|
The simplest way to compile this package is:
|
|
|
|
1. `cd' to the directory containing the package's source code and type
|
|
`./configure' to configure the package for your system. If you're
|
|
using `csh' on an old version of System V, you might need to type
|
|
`sh ./configure' instead to prevent `csh' from trying to execute
|
|
`configure' itself.
|
|
|
|
Running `configure' takes awhile. While running, it prints some
|
|
messages telling which features it is checking for.
|
|
|
|
2. Type `make' to compile the package.
|
|
|
|
3. Optionally, type `make check' to run any self-tests that come with
|
|
the package.
|
|
|
|
4. Type `make install' to install the programs and any data files and
|
|
documentation.
|
|
|
|
5. You can remove the program binaries and object files from the
|
|
source code directory by typing `make clean'. To also remove the
|
|
files that `configure' created (so you can compile the package for
|
|
a different kind of computer), type `make distclean'. There is
|
|
also a `make maintainer-clean' target, but that is intended mainly
|
|
for the package's developers. If you use it, you may have to get
|
|
all sorts of other programs in order to regenerate files that came
|
|
with the distribution.
|
|
|
|
Compilers and Options
|
|
=====================
|
|
|
|
Some systems require unusual options for compilation or linking that
|
|
the `configure' script does not know about. Run `./configure --help'
|
|
for details on some of the pertinent environment variables.
|
|
|
|
You can give `configure' initial values for configuration parameters
|
|
by setting variables in the command line or in the environment. Here
|
|
is an example:
|
|
|
|
./configure CC=c89 CFLAGS=-O2 LIBS=-lposix
|
|
|
|
*Note Defining Variables::, for more details.
|
|
|
|
Compiling For Multiple Architectures
|
|
====================================
|
|
|
|
You can compile the package for more than one kind of computer at the
|
|
same time, by placing the object files for each architecture in their
|
|
own directory. To do this, you must use a version of `make' that
|
|
supports the `VPATH' variable, such as GNU `make'. `cd' to the
|
|
directory where you want the object files and executables to go and run
|
|
the `configure' script. `configure' automatically checks for the
|
|
source code in the directory that `configure' is in and in `..'.
|
|
|
|
If you have to use a `make' that does not support the `VPATH'
|
|
variable, you have to compile the package for one architecture at a
|
|
time in the source code directory. After you have installed the
|
|
package for one architecture, use `make distclean' before reconfiguring
|
|
for another architecture.
|
|
|
|
Installation Names
|
|
==================
|
|
|
|
By default, `make install' will install the package's files in
|
|
`/usr/local/bin', `/usr/local/man', etc. You can specify an
|
|
installation prefix other than `/usr/local' by giving `configure' the
|
|
option `--prefix=PATH'.
|
|
|
|
You can specify separate installation prefixes for
|
|
architecture-specific files and architecture-independent files. If you
|
|
give `configure' the option `--exec-prefix=PATH', the package will use
|
|
PATH as the prefix for installing programs and libraries.
|
|
Documentation and other data files will still use the regular prefix.
|
|
|
|
In addition, if you use an unusual directory layout you can give
|
|
options like `--bindir=PATH' to specify different values for particular
|
|
kinds of files. Run `configure --help' for a list of the directories
|
|
you can set and what kinds of files go in them.
|
|
|
|
If the package supports it, you can cause programs to be installed
|
|
with an extra prefix or suffix on their names by giving `configure' the
|
|
option `--program-prefix=PREFIX' or `--program-suffix=SUFFIX'.
|
|
|
|
Optional Features
|
|
=================
|
|
|
|
Some packages pay attention to `--enable-FEATURE' options to
|
|
`configure', where FEATURE indicates an optional part of the package.
|
|
They may also pay attention to `--with-PACKAGE' options, where PACKAGE
|
|
is something like `gnu-as' or `x' (for the X Window System). The
|
|
`README' should mention any `--enable-' and `--with-' options that the
|
|
package recognizes.
|
|
|
|
For packages that use the X Window System, `configure' can usually
|
|
find the X include and library files automatically, but if it doesn't,
|
|
you can use the `configure' options `--x-includes=DIR' and
|
|
`--x-libraries=DIR' to specify their locations.
|
|
|
|
Specifying the System Type
|
|
==========================
|
|
|
|
There may be some features `configure' cannot figure out
|
|
automatically, but needs to determine by the type of machine the package
|
|
will run on. Usually, assuming the package is built to be run on the
|
|
_same_ architectures, `configure' can figure that out, but if it prints
|
|
a message saying it cannot guess the machine type, give it the
|
|
`--build=TYPE' option. TYPE can either be a short name for the system
|
|
type, such as `sun4', or a canonical name which has the form:
|
|
|
|
CPU-COMPANY-SYSTEM
|
|
|
|
where SYSTEM can have one of these forms:
|
|
|
|
OS KERNEL-OS
|
|
|
|
See the file `config.sub' for the possible values of each field. If
|
|
`config.sub' isn't included in this package, then this package doesn't
|
|
need to know the machine type.
|
|
|
|
If you are _building_ compiler tools for cross-compiling, you should
|
|
use the `--target=TYPE' option to select the type of system they will
|
|
produce code for.
|
|
|
|
If you want to _use_ a cross compiler, that generates code for a
|
|
platform different from the build platform, you should specify the
|
|
"host" platform (i.e., that on which the generated programs will
|
|
eventually be run) with `--host=TYPE'.
|
|
|
|
Sharing Defaults
|
|
================
|
|
|
|
If you want to set default values for `configure' scripts to share,
|
|
you can create a site shell script called `config.site' that gives
|
|
default values for variables like `CC', `cache_file', and `prefix'.
|
|
`configure' looks for `PREFIX/share/config.site' if it exists, then
|
|
`PREFIX/etc/config.site' if it exists. Or, you can set the
|
|
`CONFIG_SITE' environment variable to the location of the site script.
|
|
A warning: not all `configure' scripts look for a site script.
|
|
|
|
Defining Variables
|
|
==================
|
|
|
|
Variables not defined in a site shell script can be set in the
|
|
environment passed to `configure'. However, some packages may run
|
|
configure again during the build, and the customized values of these
|
|
variables may be lost. In order to avoid this problem, you should set
|
|
them in the `configure' command line, using `VAR=value'. For example:
|
|
|
|
./configure CC=/usr/local2/bin/gcc
|
|
|
|
will cause the specified gcc to be used as the C compiler (unless it is
|
|
overridden in the site shell script).
|
|
|
|
`configure' Invocation
|
|
======================
|
|
|
|
`configure' recognizes the following options to control how it
|
|
operates.
|
|
|
|
`--help'
|
|
`-h'
|
|
Print a summary of the options to `configure', and exit.
|
|
|
|
`--version'
|
|
`-V'
|
|
Print the version of Autoconf used to generate the `configure'
|
|
script, and exit.
|
|
|
|
`--cache-file=FILE'
|
|
Enable the cache: use and save the results of the tests in FILE,
|
|
traditionally `config.cache'. FILE defaults to `/dev/null' to
|
|
disable caching.
|
|
|
|
`--config-cache'
|
|
`-C'
|
|
Alias for `--cache-file=config.cache'.
|
|
|
|
`--quiet'
|
|
`--silent'
|
|
`-q'
|
|
Do not print messages saying which checks are being made. To
|
|
suppress all normal output, redirect it to `/dev/null' (any error
|
|
messages will still be shown).
|
|
|
|
`--srcdir=DIR'
|
|
Look for the package's source code in directory DIR. Usually
|
|
`configure' can determine that directory automatically.
|
|
|
|
`configure' also accepts some other, not widely useful, options. Run
|
|
`configure --help' for more details.
|